DC/AC converter to convert direct electric voltage into alternating voltage or into alternating current

Abstract

A DC/AC converter is disclosed having two DC voltage connections (1,2), between which are provided in a parallel circuit configuration, an intermediate energy storage (C₁) and a bridge circuit providing at least two parallel branches, each branch providing two in-series-connected switch units (A,B and C,D), to each of which a rectifier diode (DA,DB,DC DD) is connected in parallel, and having at least two AC connections, of which each single AC connection is connected via a connecting line, in each of which an inductor (L₁ respectively L₂) is provided, to one of the parallel branches of the bridge circuit between two the switch units (A,B respectively C,D) via one connecting node. In at least two connecting lines, two separate electrical connecting paths are provided, in each of which a switch (E respectively F) and an in-series-switched rectifier diode (DE respectively DF) are provided. The rectifier diodes (DE,DF) in the single connecting paths are switched in an opposite conducting direction.

Description

BACKGROUND OF THE INVNETION [0001] 1. Field of the Invention [0002] The present invention relates to a DC / AC converter to convert direct electric voltage (DC) into alternating current or into alternating voltage (AC). Such type converters are used, for example, to supply energy to the public electricity grid or to build an independent island grid where only DC voltage energy sources are available, such as for example photovoltaic systems, fuel cells, batteries, etc. [0003] 2. Description of the Prior Art [0004] The purpose of a DC / AC converter for supplying energy to an existent AC voltage grid is to generate an alternating current which is to be adapted with regard to phase position and amplitude of the potential curve of the AC voltage, preferably to a 50 or 60 Hz sine-shaped grid voltage. The purpose of a DC / AC converter for supplying energy to an independent island grid, on the other hand, is to generate an AC voltage that is stable in voltage and frequency. In order to operate ...

AI Technical Summary

Benefits of technology

[0034] Based on the previously described state of the art, the present invention provides a DC/AC converter which combines the advantages of the aforedescribed symmetrical and unsymmetrical timing including the advantages of single-phase chopping while at the same time avoiding the drawbacks associated with the aforementioned prior art. In particular, a DC/AC conve

Problems solved by technology

A disadvantage, however, is poor EMC behavior on the input side as well as sometimes lacking four-quadrant operation (reactive power capacity) depending on the type of timing applied.

An essential drawback in all the just mentioned topologies, however, is that either the entire or at least a large part of the power transferred to the output has to be intermediately stored in an inductor or transferred to the output via coupling capacitors.

In all these circuits, this results in distinctly lower efficiency values in comparison to a simple bridge circuit.

Furthermore, these circuits are sometimes very complex and difficult to control.

This voltage leads to neither safety problems nor problems with regard to electromagnetic compatibility.

However, two drawbacks are inevitably connected with the symmetrical mode of operating the DC/AC converter.

Furthermore, considerable switch losses occur during the periodic switching of the switches A,D due to the

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